* Astronomy

Title: Discovery and Characterization of a Faint Stellar Companion to the A3V Star Zeta Virginis
Authors: Sasha Hinkley (1,2), Ben R. Oppenheimer (3), Douglas Brenner (3), Neil Zimmerman (3,4), Lewis C Roberts Jr. (5), Ian R. Parry (6), Remi Soummer (7), Anand Sivaramakrishnan (3,8,9), Michal Simon (9), Marshall D. Perrin (10), David L. King (6), James P. Lloyd (11), Antonin Bouchez (12), Jennifer E. Roberts (5), Richard Dekany (12), Charles Beichman (13), Lynne Hillenbrand (1), Rick Burruss (5), Michael Shao (5), Gautam Vasisht (5) ((1) Caltech, (2) Sagan Fellow, (3) AMNH, (4) Columbia Univ., (5) JPL, (6) IoA Cambridge, (7) STScI, (8) CfAO, (9) Stony Brook, (10) UCLA, (11) Cornell, (12) Caltech Optical Observatories, (13) NASA Exoplanet Science Institute)

Through the combination of high-order Adaptive Optics and coronagraphy, we report the discovery of a faint stellar companion to the A3V star zeta Virginis. This companion is ~7 magnitudes fainter than its host star in the H-band, and infrared imaging spanning 4.75 years over five epochs indicates this companion has common proper motion with its host star. Using evolutionary models, we estimate its mass to be 0.168±.016 solar masses, giving a mass ratio for this system q = 0.082. Assuming the two objects are coeval, this mass suggests a M4V-M7V spectral type for the companion, which is confirmed through integral field spectroscopic measurements. We see clear evidence for orbital motion from this companion and are able to constrain the semi-major axis to be greater than 24.9 AU, the period > 124 yrs, and eccentricity > 0.16. Multiplicity studies of higher mass stars are relatively rare, and binary companions such as this one at the extreme low end of the mass ratio distribution are useful additions to surveys incomplete at such a low mass ratio. Moreover, the frequency of binary companions can help to discriminate between binary formation scenarios that predict an abundance of low-mass companions forming from the early fragmentation of a massive circumstellar disk. A system such as this may provide insight into the anomalous X-ray emission from A stars, hypothesised to be from unseen late-type stellar companions. Indeed, we calculate that the presence of this M-dwarf companion easily accounts for the X-ray emission from this star detected by ROSAT.

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